Good Vibrations. Музыка, которая исцеляет - Штефан Кёльш

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 Kiecolt-Glaser, J. K., McGuire, L., Robles, T. F., & Glaser, R. (2002): Emotions, morbidity, and mortality: new perspectives from psychoneuroimmunology, Annual Review of Psychology, 53 (1), S. 83–107.

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 Шуточный свод правил, состоящий из 11-ти прописных истин и житейских мудростей. — Прим. пер.

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 Koelsch, S., Jacobs, A. M., Menninghaus, W., Liebal, K., Klann-Delius, G., von Scheve, C., & Gebauer, G. (2015): The quartet theory of human emotions: an integrative and neurofunctional model, Physics of Life Reviews, 13, S. 1–27; Koelsch, S., Jacobs, A. M., Menninghaus, W., Liebal, K., Klann-Delius, G., von Schewe, C., & Gebauer, G. (2013): Ein neurofunktionales Modell von Emotionen. Enzyklopädie der Psychologie/Themenbereich C: Theorie und Forschung, Serie II: Kognition, Bd. V: Affektive und Kognitive Neurowissenschaft, S. 307–342.

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 Clark, I. N., Baker, F. A., & Taylor, N. F. (2016): The modulating effects of music listening on health-related exercise and physical activity in adults: a systematic review and narrative synthesis, Nordic Journal of Music Therapy, 25 (1), S. 76–104.

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 Fritz, T. H., Hardikar, S., Demoucron, M., Niessen, M., Demey, M., Giot, O., ... & Leman, M. (2013): Musical agency reduces perceived exertion during strenuous physical performance, Proceedings of the National Academy of Sciences, 110 (44), S. 17784–17789; Fritz, T. H., Bowling, D. L., Contier, O., Grant, J., Schneider, L., Lederer, A., ... & Villringer, A. (2018): Musical agency during physical exercise decreases pain, Frontiers in Psychology, 8, S. 2312.

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 Pelletier, C. L. (2004): The effect of music on decreasing arousal due to stress: A meta-analysis, Journal of Music Therapy, 41 (3), S. 192–214.

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 Grewe, O., Kopiez, R., & Altenmüller, E. (2009): The chill parameter: Goose bumps and shivers as promising measures in emotion research, Music Perception: An Interdisciplinary Journal, 27 (1), S. 61–74.

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 Panksepp, J. (1995): The emotional sources of chills induced by music, Music perception: An Interdisciplinary Journal, 13 (2), S. 171–207. См. также предыдущее примечание.

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 Mas-Herrero, E., Zatorre, R. J., Rodriguez-Fornells, A., & Marco-Pallarés, J. (2014): Dissociation between musical and monetary reward responses in specific musical anhedonia, Current Biology, 24 (6), S. 699–704.

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 Blood, A. J., & Zatorre, R. J. (2001): Intensely pleasurable responses to music correlate with activity in brain regions implicated in reward and emotion, Proceedings of the National Academy of Sciences, 98 (20), S. 11818–11823.

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 Di Chiara, G., Bassareo, V., Fenu, S., De Luca, M. A., Spina, L., Cadoni, C., ... & Lecca, D. (2004): Dopamine and drug addiction: the nucleus accumbens shell connection, Neuropharmacology, 47, S. 227–241; Holstege, G., Georgiadis, J. R., Paans, A. M., Meiners, L. C., van der Graaf, F. H., & Reinders, A. S. (2003): Brain activation during human male ejaculation, Journal of Neuroscience, 23 (27), S. 9185–9193.

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 Salimpoor, V. N., Benovoy, M., Larcher, K., Dagher, A., & Zatorre, R. J. (2011): Anatomically distinct dopamine release during anticipation and experience of peak emotion to music, Nature Neuroscience, 14 (2), S. 257.

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 Koelsch, S. (2014): Brain correlates of music-evoked emotions, Nature Reviews Neuroscience, 15 (3), S. 170.

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 Sescousse, G., Caldú, X., Segura, B., & Dreher, J. C. (2013): Processing of primary and secondary rewards: a quantitative metaanalysis and review of human functional neuroimaging studies, Neuroscience & Biobehavioral Reviews, 37 (4), S. 681–696.

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 Spintge, R. (2015): Musikmedizinische Interventionen in der klinischen Medizin bei Schmerz, Angst und Stress, in: Bernatzky, G., Kreutz, G. (Hg.): Musik und Medizin, Springer, S. 71–83.

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 Cepeda, M. S., Carr, D. B., Lau, J., & Alvarez, H. (2006): Music for pain relief, Cochrane Database of Systematic Reviews, (2), S. 1–45.

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 Koelsch, S., Fuermetz, J., Sack, U., Bauer, K., Hohenadel, M., Wiegel, M., ... & Heinke, W. (2011): Effects of music listening on cortisol levels and propofol consumption during spinal anesthesia, Frontiers in Psychology, 2, S. 58.

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 Klassen, J. A., Liang, Y., Tjosvold, L., Klassen, T. P., & Hartling, L. (2008): Music for pain and anxiety in children undergoing medical procedures: a systematic review of randomized controlled trials, Ambulatory Pediatrics, 8 (2), S. 117–128.

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 Cavaco, S., Feinstein, J. S., van Twillert, H., & Tranel, D. (2012): Musical memory in a patient with severe anterograde amnesia, Journal of Clinical and Experimental Neuropsychology, 34 (10), S. 1089–1100.

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 Galea, L. A., Leuner, B., & Slattery, D. A. (2014): Hippocampal plasticity during the peripartum period: influence of sex steroids, stress and ageing, Journal of Neuroendocrinology, 26 (10), S. 641–648.

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 Strange, B. A., Witter, M. P., Lein, E. S., & Moser, E. I. (2014): Functional organization of the hippocampal longitudinal axis, Nature Reviews Neuroscience, 15 (10), S. 655.

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 Heinrichs, M., & Domes, G. (2008): Neuropeptides and social behaviour: effects of oxytocin and vasopressin in humans, Progress in Brain Research, 170, S. 337–350.

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 Leuner, B., Glasper, E. R., & Gould, E. (2010): Parenting and plasticity, Trends in Neurosciences, 33 (10), S. 465–473.

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 Lathe, R. (2001): Hormones and the hippocampus, Journal of Endocrinology, 169 (2), S. 205–231.